Autumn Semester 2020 takes place in a mixed form of online and classroom teaching.
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227-0002-00L  Networks and Circuits II

SemesterSpring Semester 2017
LecturersJ. W. Kolar
Periodicityyearly recurring course
Language of instructionGerman


AbstractIntroduction to AC circuits analysis, Fourier analysis, frequency and time domain, step response of electric circuits, Fourier and Laplace transform, frequency response of electric networks, two-port systems, bipolar and field-effect transistor, basic transistor circuits, push-pull emitter follower and differential amplifier, operational amplifier, basic and advanced operational amplifier circuits
ObjectiveThe lecture is aiming to make students familiar with basis methods of AC circuits analysis, the Fourier analysis of non-sinusoidal periodic signals, i.e. the relations of frequency and time domain, the calculation of the step response and transfer function of linear networks using Fourier- and Laplace transform and the analysis and design of transistor and operational amplifier circuits.
ContentIntroduction to AC circuits analysis, Fourier analysis, frequency and time domain, step response of electric circuits, Fourier and Laplace transform, frequency response of electric networks, two-port systems, bipolar and field-effect transistor, basic transistor circuits, push-pull emitter follower and differential amplifier, operational amplifier, basic and advanced operational amplifier circuits
Lecture notesSpecified literature and lectures slides
LiteratureGrundlagen der Elektrotechnik

Bd. 2 - Periodische und nicht periodische Signalformen
M. Albach
Pearson Studium
Ausgabe 2005 (ISBN 9783827371089) oder
Ausgabe 2011 (ISBN 9783868940800)

Bd. 3 - Netzwerke
L.-P. Schmidt et al.
Pearson Studium
Ausgabe 2006 (ISBN 9783827371072)

Microelectronic Circuits
Adel S. Sedra, Kenneth C. Smith
5th or 6th Edition (Vorlesung entsprechend 5th Edition)
ISBN 0-19-514252-7
Oxford University Press, 2004